61 |
Infant nursing unit |
JP2984386 |
1986-02-13 |
JPS61226042A |
1986-10-07 |
ANSONII DANIERU BATSUTEITSUTA; DAGURASU DEIRU KAADEN |
|
62 |
DEVICES AND METHODS FOR A NEONATE INCUBATOR, CAPSULE AND CART |
US16039989 |
2018-07-19 |
US20180325416A1 |
2018-11-15 |
Uri RAPOPORT; Shmuel Azulay; Itzhak Rabinovitz |
Systems and method for positioning a neonate within an imaging device are provided. A capsule incubator, a cart, and a docking incubator are used to move a baby between an imaging device and a incubator, such that a baby can be imagined without having to move the baby from its environment. |
63 |
Devices and methods for a neonate incubator, capsule and cart |
US15886086 |
2018-02-01 |
US10076266B2 |
2018-09-18 |
Uri Rapoport; Shmuel Azulay; Itzhak Rabinovitz |
Systems and method for positioning a neonate within an imaging device are provided. A capsule incubator, a cart, and a docking incubator are used to move a baby between an imaging device and a incubator, such that a baby can be imagined without having to move the baby from its environment. |
64 |
DEVICES AND METHODS FOR A NEONATE INCUBATOR, CAPSULE AND CART |
US15886086 |
2018-02-01 |
US20180153435A1 |
2018-06-07 |
Uri RAPOPORT; Shmuel AZULAY; Itzhak RABINOVITZ |
Systems and method for positioning a neonate within an imaging device are provided. A capsule incubator, a cart, and a docking incubator are used to move a baby between an imaging device and a incubator, such that a baby can be imagined without having to move the baby from its environment. |
65 |
DEVICE FOR ALIGNING AND CONNECTING A HOOD TO A HOUSING |
US15606403 |
2017-05-26 |
US20170340500A1 |
2017-11-30 |
Markus HAMPE; Robert LISCHINSKI; Tjeerd Jan Pieter GERBRANDA; Eduard ENGELSMAN; Danker KEMPER |
A device (4) aligns and connects a housing hood (3) to a housing (2). The device (4) has a first connecting piece (5) and a second connecting piece (6). The first connecting piece (5) has a clamp bearing element (51) and the second connecting piece (6) has a lamella element (61). The lamella element (61) is arranged movably along the clamp bearing element (51). The device (4) has a clamping element (7) for clearance-free clamping the lamella element (61) with the clamp bearing element (51). An alignment of the hood (3) on a housing (2) can be carried out simply and rapidly and requires only weak clamping forces. |
66 |
Warming therapy device |
US13430921 |
2012-03-27 |
US09820906B2 |
2017-11-21 |
Jochim Koch; Ulf Timme |
A heat therapy device including a care unit presenting a lying surface for supporting an infant, a hood which is moveable between a closed position covering the care unit and an opened position clearing the top of the care unit, a radiation heater arranged to irradiate the lying surface in the opened position of the hood, a convection heater, and control units which are configured and arranged to control the operation of the radiation and convection heaters, wherein the control units are configured and arranged to control the operation of the convection heater as a primary heater when the hood is in the closed position and to control the operation of the radiation heater as the primary heater when the hood is in the opened position. |
67 |
INCUBATOR |
US15348318 |
2016-11-10 |
US20170135887A1 |
2017-05-18 |
Keisuke WAKABAYASHI; Masato HONDA; Yutaka SEKIGUCHI; Ichiro MATSUBARA; Terumi MATSUBARA |
An incubator comprising a mattress tray and a plurality of baby guards surrounding a vicinity of an outer periphery of the mattress tray, wherein: a first baby guard from out of the plurality of baby guards includes a grommet; the first baby guard is detachably attached to a first attachment location installed at a vicinity of the outer periphery of the mattress tray; a second baby guard from out of the plurality of baby guards is detachably attached to a second attachment location installed at a vicinity of the outer periphery of the mattress tray; and the first baby guard is detachable from the first attachment location and attachable to the second attachment location, and the second baby guard is detachable from the second attachment location and attachable to the first attachment location. |
68 |
INCUBATOR |
US15341505 |
2016-11-02 |
US20170128301A1 |
2017-05-11 |
Keisuke WAKABAYASHI; Kenji KOBAYASHI; Masaaki OOHASHI; Ichiro MATSUBARA; Terumi MATSUBARA |
An incubator of the disclosure is configured such that a top hood is detachable from a peripheral frame by unlatching first latch mechanisms that latch the top hood. The incubator is also configured such that any of wall portion among four wall portions configuring the peripheral frame are detachable from an incubator base by unlatching any of corresponding second to fifth latch mechanisms. |
69 |
A COLLAPSIBLE INCUBATOR |
US15317799 |
2015-06-11 |
US20170119609A1 |
2017-05-04 |
James Michael Roberts |
A collapsible incubator for an infant, the collapsible incubator comprising: a flexible housing for containing the infant, the flexible housing being configurable between an expanded condition and a collapsed condition; a door within the flexible housing for infant access; a first end portion secured to a first end of the flexible housing; a second end portion secured to a second end of the flexible housing, said second end portion being configured to be substantially opposite said first end portion; and, at least one fastening means configured to releasably secure the first end portion to the second end portion when in the collapsed condition, whereby the first end portion and the second end portion are configured, in use, to support the flexible housing in the expanded condition, and to substantially contain the flexible housing therebetween in the collapsed condition. |
70 |
System and method of neonatal care |
US13313493 |
2011-12-07 |
US09468575B2 |
2016-10-18 |
Lawrence G. Ten Eyck; Steven M. Falk |
An infant care system includes an infant care tower configured to receive at least one medical device. A processor operates the infant care tower and the at least one medical device. A bassinet is configured to receive an infant patient within a microenvironment defined and maintained by the bassinet. Upon connection of the bassinet to the infant care tower, the processor operates to control both the infant care tower and the bassinet in maintain the microenvironment of the bassinet. In a method of treating an infant patient, an infant patient is provided in a microenvironment defined and maintained by a bassinet. The bassinet is communicatively connected to the care tower and a first processor of the infant care tower operates the bassinet to maintain the microenvironment to provide medical care to the infant patient with the at least one medical device of the infant care tower. |
71 |
PORTABLE INFANT INCUBATOR |
US14775139 |
2014-03-13 |
US20160030264A1 |
2016-02-04 |
Craig LEHMANN; John BRITTELLI |
A portable infant incubator is provided. The incubator has a foldable circumferential wall connected to a base. The foldable circumferential wall has a first configuration folded on a top surface of the base and a second configuration standing from the top surface of the base. A cover is operatively connected to the wall when wall is in the second configuration, to provide a substantially enclosed space with the wall and the top surface of the base. An environmental control device is provided to maintain a predetermined temperature and humidity within the enclosed space. A sensor is provided to acquire environmental data and providing the data to the environmental control device. |
72 |
Infant incubator |
US13858663 |
2013-04-08 |
US09233040B2 |
2016-01-12 |
Kazuo Matsubara; Terumi Matsubara; Shinichi Kobayashi; Kenji Kobayashi |
An infant incubator including: a left-side treatment door, a right-side treatment door, and an end-side treatment door which are rotatably held, and door-locking devices which fixes the left-side and right-side treatment doors on the end-side treatment door; the door-locking devices are formed from: open-close knobs each mounted rotatably on the left-side and right-side treatment doors and each having a hook-shaped distal end, and knob brackets each mounted on side of the end-side treatment doors having a hollow-shape, the infant incubator in which the treatment doors are fixed in a stand state by inserting the open-close knob into the knob bracket. |
73 |
Premature neonate closed life support system |
US13595195 |
2012-08-27 |
US09072644B2 |
2015-07-07 |
Uri Rapoport |
A magnetically permeable neonate transport capsule (MPNTC) for transporting a premature neonate from a host infant incubator having a steady environmental condition to an MRD. The MPNTC has at least one first normally open configuration when the capsule is disposed within the incubator and a second closed configuration for removal, transportation, insertion, measurement and vice versa within an MRD device. The MPNTC includes an environmental control system thereby adapted to maintain continuous attachment of the neonate with life support connection lines. The MPNTC is further adapted to maintain environmental conditions substantially similar to the host infant incubator environmental condition when the MPNTC is transported from the incubator to the MRD device. |
74 |
HEAT THERAPY DEVICE |
US14388465 |
2013-03-20 |
US20150065787A1 |
2015-03-05 |
Thomas Bohnen; Tjeerd Jan Pieter Gerbranda; Markus Hampe; Jochim Koch; Philip Möhring |
A heat therapy device, in particular an incubator, for treating newborn children, has a bordered lying surface (4) freely accessible from above for accommodating a newborn child. A hood (18) can be moved between a closed position in which the bordered lying surface (4) is covered and an open exposed bordered lying surface position. A radiation heater (16) is suspended from a support structure (8) and is directed at the surface (4), in such a way that, after the movement from the closed position to the open position, the end (18b) of the hood facing the support structure (8) lies vertically at least at the height of the radiation heater (16) and lies horizontally further from the support structure (8) than the radiation heater, such that the hood (18) assumes a position outside of a radiation cone (16a) from the radiation heater (16) onto the lying surface (4). |
75 |
MRI Transfer Table Assembly |
US14376523 |
2012-08-24 |
US20140364722A1 |
2014-12-11 |
Charles L. Dumoulin |
The present disclosure relates to a transfer table assembly suitable for use in association with an MR scanner. The transfer table assembly includes a transfer table attached to a transfer table base that may releasably engage an incubator. The transfer table may be dimensionally constructed such that it may be inserted directly into an MR scanner. |
76 |
Warming therapy device including rotatable mattress tray |
US12738785 |
2008-11-18 |
US08821367B2 |
2014-09-02 |
Andrei Khodak |
An apparatus and method for providing patient access in a warming therapy device (e.g., incubator, warmer, etc.) is described. In one exemplary embodiment, the apparatus includes a mattress tray assembly having at least two axes of rotation, and in another exemplary embodiment, the apparatus includes a mattress tray assembly having at least four axes of rotation. |
77 |
INFANT INCUBATOR |
US13858663 |
2013-04-08 |
US20130274543A1 |
2013-10-17 |
Kazuo Matsubara; Terumi Matsubara; Shinichi Kobayashi; Kenji Kobayashi |
An infant incubator including: a left-side treatment door, a right-side treatment door, and an end-side treatment door which are rotatably held, and door-locking devices which fixes the left-side and right-side treatment doors on the end-side treatment door; the door-locking devices are formed from: open-close knobs each mounted rotatably on the left-side and right-side treatment doors and each having a hook-shaped distal end, and knob brackets each mounted on side of the end-side treatment doors having a hollow-shape, the infant incubator in which the treatment doors are fixed in a stand state by inserting the open-close knob into the knob bracket. |
78 |
Incubator |
US12568335 |
2009-09-28 |
US08424930B2 |
2013-04-23 |
Terumi Matsubara; Eiji Koike; Naoki Honma; Yoko Nagai; Kazuo Matsubara |
In an incubator according to the present invention, physical condition of a newborn is less likely to get out of order though a hand insertion window can easily be opened by operation with, for example, an elbow instead of a hand. A latch in a latch mechanism has a spiral face that extends to at least part of the periphery of a rotation shaft that extends along a side of a newborn chamber. A releasing member in the latch mechanism presses the spiral face of the latch by movement along the side of the newborn chamber and rotates the latch from a holding position to a releasing position for a hand insertion door. In addition, even if the latch in the latch mechanism rotates about the rotation shaft between the holding and releasing positions for the hand insertion door, the releasing member does not rotate. |
79 |
Infant care apparatus |
US12756862 |
2010-04-08 |
US08419610B2 |
2013-04-16 |
Kazuo Matsubara; Eiji Koike; Shinchi Kobayashi; Masato Honda; Hidetoshi Sato; Keisuke Wakabayashi |
In an infant care apparatus according to this invention, heat rays are radiated from a heat radiation opening of a heater to a bed. The direction of the heat radiation opening can be changed from the first state in which the heat radiation opening substantially faces the bed to the second state in which the heat radiation opening does not substantially face the bed. According to the infant care apparatus of this invention, when the heater is not used, there is no possibility that the remaining heat of the heater is transferred to the infant laying on the bed. There is therefore no possibility that the infant will be unnecessarily overheated. There is no need to operate the heater and the like of the infant care apparatus in such a manner that the infant lying on the bed and surrounding people have feelings that rough operation is performed. This will keep the infant and the surrounding people free from adverse effects in terms of mental health. |
80 |
SYSTEM AND METHOD OF MONITORING THE PHYSIOLOGICAL CONDITIONS OF A GROUP OF INFANTS |
US13238752 |
2011-09-21 |
US20120157796A1 |
2012-06-21 |
Lawrence G. Ten Eyck; Karen P. Starr; Aparna Katakam |
A system for monitoring the physiological conditions of a plurality of infants in a neonatal intensive care unit (NICU). The system includes a plurality of microenvironments, a plurality of environmental sensors to detect a first environmental condition in the microenvironments, and a plurality of external environmental sensors to detect a second environmental condition in the NICU. The system also includes a central processor that compares signals from the environmental sensors to signals from the external environmental sensors and determines a correlation between the first environmental condition and the second environmental condition. A method of monitoring the conditions of a plurality of infants is also disclosed. |